Ethylene polymer blends

ABSTRACT

Ethylene polymer blends of a high molecular weight ethylene polymer, preferably an ethylene-mono-1-olefin copolymer, and a low molecular weight ethylene polymer preferably an ethylene homopolymer, both preferably with narrow molecular weight distribution and low levels of long chain branching exhibit excellent film properties and good environmental stress crack behavior superior to that expected for polyethylene of comparable density and melt flow. These resins are useful for the manufacture of film or in blow molding techniques, the production of pipes and wire coating.

BACKGROUND OF THE INVENTION

The present invention relates to the production and use of blends of ethylene polymers of different molecular weight. More specifically the present invention relates to film grade ethylene polymer blends.

In recent years high density polyethylene film has been commercially very successful as a replacement for kraft paper. Several new film resins have therefore been introduced on the market. Among these new resins are high molecular weight high density polyethylene resins having a broad molecular weight distribution.

The production of high density polyethylene today can be called a mature technology. One of the continuing goals in this technology is to develop catalysts with high productivities so that a catalyst removal step can be avoided in the polymer production. Such high productivity catalysts have been developed in recent years. These catalysts sometimes produce ethylene polymers with a narrow molecular weight distribution.

Thus, resins produced with certain high productivity catalysts in view of their narrow molecular weight distribution are often not ideal for the above described application of the high density polyethylene as a film forming resin. It would be very desirable to have an ethylene polymer composition available which can be produced with high productivity catalysts and which still has film grade resin qualities. There is a further specific problem encountered in the production of resins for applications as films. The film properties desired and the desired processability of the resin are often in conflict. Improvements on the processability frequently result in reduced film qualities and vice versa.

The desired properties of film for many applications conflict with each other. For example, polymers with good toughness (impact resistance) are usually deficient in stiffness for grocery sacks. Those that make stiff sacks are too brittle. Thus, most film polymers are a compromise: a balance of performance features.

THE INVENTION

It is one object of this invention to provide an ethylene polymer resin composition useful for such applications as film production.

Another object of this invention is to provide ethylene polymer resin mixtures that are satisfactory with respect to both the film properties and the processability of the resin.

Another object of this invention is to provide ethylene polymer resin for blown film applications.

A further object of this invention is to provide ethylene polymer resin compositions, the polymers of which can be made with high productivity olefin polymerization catalysts.

Yet another object of this invention is to provide a process for the production of such resin compositions.

Still another object of this invention is to provide a process for the manufacture of polyolefin film from such a resin composition which has acceptable film properties.

A yet further object of this invention is to provide an ethylene polymer film having high strength and, in particular, high tear strength, puncture resistance, impact strength and high environmental stress crack resistance (ESCR).

An important object of this invention is to provide a resin composition having a better balance of stiffness and impact and ESCR as compared to known resins.

These and other objects, advantages, features, details and embodiments of this invention will become apparent to those skilled in the art from the following detailed description of the invention and the appended claims and the drawings in which

FIGS. 1-7 show regression analysis correlations between HLMI of the high molecular weight component and blend properties,

FIGS. 8 and 9 show typical molecular weight distributions of blends of this invention.

In accordance with this invention it has been found that a mixture of a low molecular weight ethylene polymer and a high molecular weight ethylene polymer exhibits both desirable processing properties and excellent film properties when extruded into a polyolefin film. The polymer blends so composed are useful for the production of polyolefin film, particularly by blown tubing techniques, and for blow-molding (e.g. to produce bottles), pipe production and wire coating.

The low molecular weight ethylene polymer, the high molecular weight ethylene polymer and the blend are further characterized in Table I. The typical bimodal molecular weight distribution of the resin blends of this invention is shown for two different samples in FIGS. 8 and 9, respectively.

                                      TABLE I                                      __________________________________________________________________________     PROPERTIES OF THE ETHYLENE POLYMERS AND BLENDS                                           High Molecular                                                                           Low Molecular                                                        Weight Ethylene                                                                          Weight Ethylene                                                      Polymer   Polymer       Blend                                        __________________________________________________________________________     HLMI                                                                           (g/10 min)                                                                     generally 0.1-1.5   --            3-34                                         preferred 0.2-0.6   --            5-12                                         MI                                                                             (g/10 min)                                                                     generally --         45-300       0.01-0.6                                     preferred --        100-300       0.03-0.5                                     Density                                                                        (g/cc)                                                                         generally about 0.930-0.955                                                                        about 0.945-0.975                                                                            .940-.965                                    preferred about .930-.945                                                                          about .950-.975                                                                              .950-.960                                    Structure                                                                      (Monomers)                                                                     generally Ethylene or                                                                              Ethylene or Ethylene                                                                         --                                                     Ethylene and 0                                                                           and 0 to 30 wt. %                                                    to 30 wt. % C.sub.3-10                                                                   C.sub.3-10 olefins                                                   olefins                                                              preferred Ethylene and 1 to                                                                        0.5 to 5 wt. %                                                                               --                                                     15 wt. % C.sub.3-7                                                                       C.sub.3-10 olefins                                                   olefins                                                              most      Ethylene and 5 to                                                                        Ethylene ("Homopolymer"                                                                      --                                           preferred 10 wt. % C.sub.4-10                                                                      i.e. one that contains                                               olefins   less than about 2 weight                                             (random copolymer)                                                                       % C.sub.4-10 olefin comonomer,                                                 most preferably a true                                                         ethylene homopolymer)                                      Branching essentially no                                                                           essentially linear                                                   branching other                                                                than short chain                                                               branching from                                                                 comonomer                                                            Molecular Weight                                                               Distribution (SEC)                                                             (HI = M.sub.w /M.sub.n)                                                        generally <10       <6            >18                                          preferred 4-9       2-4           20-35                                        __________________________________________________________________________

The various polymer properties in this table and following tables are determined as follows:

MI (melt index, g/10 min, 190° C.): ASTM D 1238-65T, load of 2.16 kg

HLMI (High load melt index, g/10 min, 190° C.): ASTM D 1238-65T, load of 21.6 kg

Density (g/cc): ASTM D 1505-68

M_(w) =weight average molecular weight, determined by size exclusion chromatography (SEC)

M_(n) =number average molecular weight, determined by size exclusion chromatography (SEC)

HI=heterogeneity index=M_(w) /M_(n)

The preferred polymers and blends have molecular weights and molecular weight distributions roughly as shown in the following table:

                  TABLE II                                                         ______________________________________                                         Approximate Values    Typical Range                                            ______________________________________                                         Component #l (High Molecular Weight)                                           M.sub.w ˜ 500,000                                                                              400,000 to 700,000                                       M.sub.n ˜ 70,000                                                         M.sub.w /M.sub.n ˜ 7.5                                                                         4 to 9                                                   Component #2 (Low Molecular Weight)                                            M.sub.w ˜ 15,000                                                                               10,000 to 20,000                                         M.sub.n ˜ 5,000                                                          M.sub.w /M.sub.n ˜ 3                                                                           2 to 4                                                   Blend                                                                          M.sub.w ˜ 270,000                                                                              200,000 to 400,000                                       M.sub.n ˜ 10,000                                                         M.sub.w /M.sub.n ˜ 27                                                                          20 to 35                                                 ______________________________________                                    

The presently preferred ethylene polymers and copolymers within the limits set forth above are those produced with high productivity catalysts such as titanium/magnesium catalysts used in conjunction with organoaluminum cocatalysts. Such catalysts as well as polymerization processes to make such ethylene polymers are described in more detail in European Patent Application No. 81 106 259.5 and No. 81 102 181.5 disclosure of which is herein incorporated by reference.

In accordance with the first embodiment of this invention a process to produce an ethylene polymer composition is provided. The process comprises blending the two ethylene polymers described above in relative quantities described below. The blending can be done by simply dry blending the two kinds of polymers in fluff (powder) form. Other possibilities to mix the polymers include melt blending in a pelletizing extruder. Banbury® mixers and single or twin screw extruders can be utilized. The preferred method is dry blending followed by melt blending. The blending conditions depend upon the blending technique employed. If a dry blending of the polymer fluff is the blending technique, the blending conditions may include temperatures from room temperature up to about 120° C. and blending times in the range of a few seconds to minutes, e.g. 2 seconds to 5 minutes. If extrusion blending is used, the temperature of the polymers introduced into the extruder will be generally between room temperature and a temperature near the melting point of the polymer; the outlet temperature of the extrusion blended polymer will be in the range between the melting point of the polymer and up to 160° C. above the melting point. The individual polymer particles usually remain in the extruder for a time of about 10 seconds to about 15 minutes. If solution blending techniques are employed the blending temperature will generally be 25° to 50° C. above the cloud point of the solution involved.

Another embodiment of this invention is a polymer blend of the two ethylene polymers as defined above. Such a blend consists essentially of the two polymers and commonly used polymer additives such as antioxidants, UV stabilizers, fillers, pigments etc. The main polymer ingredients are present in this blend in quantities based on the total polymer as specified in Table III.

                  TABLE III                                                        ______________________________________                                         BLEND COMPOSITION (WEIGHT %)                                                               Generally                                                                              Preferred                                                  ______________________________________                                         High molecular                                                                               40 to 70  about 50 to about 55                                   weight ethylene                                                                polymer                                                                        (HLMI 0.1 to 1.5)                                                              Low molecular 60 to 30  about 50 to about 45                                   weight ethylene                                                                polymer                                                                        (MI 45-300)                                                                    ______________________________________                                    

The resins blended are preferably selected from the HLMI and the MI ranges respectively so that a high molecular weight resin from the lower end of the range for HLMI values is blended with a low molecular weight resin from the higher end of the range for the MI values and vice versa.

Other embodiments of this invention are a method to produce an ethylene polymer film and the film so produced. The method of producing the ethylene polymer film includes extruding a molten web composed of the ethylene polymer blend defined above which is drawn down to the desired thickness, generally in the range of 0.1 to 5 mil. Extruding a flat film (width between 1 foot and 15 feet) and extruding a film tubing are both contemplated in this embodiment. The tubular extrusion with a blow/up ratio of tubing diameter to orifice die diameter in the range of about 2:1 to 10:1 is presently preferred. Typical dies have orifice diameters of 1" to 100".

The invention will be still more fully understood from the following examples which are intended to illustrate the invention and further preferred embodiments thereof without undue limitation of the scope of this invention.

The experimental methods and procedures employed in the following examples were as follows:

ETHYLENE POLYMER PRODUCTION

In a pilot plant several ethylene homopolymers and ethylene 1-hexene copolymers were produced with high activity titanium/magnesium catalysts. These catalysts are described in detail in the above cited European Patent Applications. Polymers produced were either high molecular weight or low molecular weight polymers as further specified in the following examples. For stabilization during the processing the following additives were admixed with the polymers:

BHT (2,6-di-t-butyl-4-methylphenol): 0.05 weight %

DLTDP (dilauryl thiodipropionate): 0.03 weight %

Calcium stearate: 0.04 weight %

In some of the examples 0.1 weight % of Irganox 1010® (tetrakis[methylene(3,5-di-t-butyl-4-hydroxyhydrocinnamate)]methane commercially available from Ciba-Geigy) was also added.

The mixing of the two ethylene polymer components was carried out in a variety of apparatus. A Henschel mixer was used to blend the fluff. A Farrel Banbury size 00, a Farrel 2FCM and a Davis-Standard 38 mm single screw extruder were used as shown in the following tables. The polymer blend obtained from the Banbury mixer was finished in a Foremost QG10-10 granulator, a Davis-Standard 150S 38 mm extruder or respectively a Cumberland 6 pelletizer.

The ethylene polymer blend was converted to a blown film using a 38 mm Davis-Standard extruder of 24-1 length/diameter ratio screw. The film die was 10.2 cm in diameter with a 0.56 mm die gap. An air ring was used to cool and support the ethylene polymer bubble in a film tower. The extrusion temperature was in the range of 250°±20° C. The film produced generally had a thickness of 1 mil. The blow/up ratio was 4:1 and the linear drawdown ratio was 5.5:1.

The various properties of the ethylene polymer film were measured as follows:

Dart Impact:

The dart impact resistance of the one mil film was measured using ASTM D 1709-75. This method measured the energy required to break the film upon impact of a free falling dart. This method established the weight of the dart dropped from a height of 26 inches which caused 50 percent of the samples to break. The staircase method was used to determine the 50 percent failure level, and the missile weight increment was 15 g.

Elmendorf Tear:

The Elmendorf tear resistance, called tear in Table XV, was measured using ASTM D 1922. This is a modification for polymer film adapted from the Elmendorf tear test used for paper. This method determined the average force in grams per specimen required to propagate a tear through 2.5 inches of film. The method was used to rank relative tearing resistance of different blends.

Patterson Puncture:

The resistance to puncture/propagation of tear was measured by a modification of ASTM D 2582. This test method is used for determination of dynamic tear resistance or resistance to snagging of plastic film. The ASTM method was modified for lower weight carriages.

Spencer Impact:

Spencer impact was measured using ASTM D 3420. The following formula was used to obtain an impact value in joules.

    E=RC/100

E=Energy to rupture, Joules

C=Apparatus capacity, 1.35 Joules

R=Scale Reading on a 0 to 100 scale.

This method was more rapid than dart impact and could be used as a control test while the film line was running. This test measured the energy necessary to burst and penetrate the center of a one mil thick specimen, mounted between two rings with a 31/2 inch diameter.

Fish Eye:

Fish eye count or gel count was made on two sections of film one mil thick and one square foot in area. Only fish eyes greater than ten mils in at least one dimension were counted. In the case of film with fish eye count greater than 50 per square foot a five square inch section of film was counted.

Tensile Strength and Elongation:

Tensile strength and elongation were measured in accordance with ASTM D 638, 2"/min.

Shore Hardness:

Shore D hardness was measured in accordance with ASTM D 2240-68.

RDI:

Rheological distribution index (RDI) is an arbitrary rheological index value obtained from measurements made on a polymer sample with a Rheometrics Dynamic Spectrometer (Rheometric's Company). A molten polymer sample is subjected to a sinusoidal, oscillating shear strain between two parallel circular plates at 190° C. The frequency of oscillation is varied from 10⁻¹ to 5×10² radians/sec. A log-log plot of frequency vs. dynamic loss modulus is made and the slope of the curve determined when the loss modulus is equal to 10⁵ dynes/cm². The reciprocal of the slope is defined as RDI. The larger the RDI value, the greater the shear response of the polymer. Since polymer shear response is related to its molecular weight distribution (the broader the distribution the greater the shear response) the RDI value is thought to provide a reliable indication of molecular weight distribution.

Flexural Modulus, MPa:

The flexural modulus is determined in accordance with ASTM D 790.

ESCR (Bell):

The Environmental Stress Cracking Resistance was determined in accordance with ASTM D 1693-60, condition A.

Viscosity:

The dynamic shear viscosity, in units of 10⁵ Poise, is obtained from the Rheometrics Dynamic Spectrometer as is the RDI. The viscosity reported is that at 0.1 radians/second (frequency of oscillation).

Throughout all of the following examples, the following abbreviations will be used.

PE: ethylene homopolymer

EHC: ethylene 1-hexene copolymer, 75-99 wt. % ethylene and 1 to 25 wt. % 1-hexene.

EXAMPLE I

In this example film was produced from commercially available ethylene polymer resins Hostalen® GM9255 (Hoechst), and TR130 polyethylene (Phillips Petroleum Company) produced with a chromium oxide catalyst, and an ethylene polymer blend as specified mixed in different equipment as shown in the following table. The film test results as well as the properties of the polymer blend used for the production of the film are given in the following Table IV.

In comparing polymers and blends, in a given series, constant conditions were employed and the film was extruded on the same day if at all possible.

                                      TABLE IV                                     __________________________________________________________________________     FILM RESIN PROPERTIES                                                                            Elmendorf                                                                            Patterson Fish Eye                                                Dart Impact                                                                           Tear  Puncture                                                                            Spencer                                                                             Count                                                                               Melt                                               g      g     Kg   Impact                                                                              count/ft.sup.2                                                                      Index                                                                               HLMI Density                       Ethylene Polymer:                                                                         26"/13"                                                                               MD/TD MD/TD                                                                               J    gel/char                                                                            g/10 min.                                                                           g/10 min.                                                                           g/cc                          __________________________________________________________________________     Control:                                                                       Hostalen GM9255                                                                           100/240                                                                               22/290                                                                               1.7/2.7                                                                             0.24   3/0.1                                                                             0.05 8.4  0.957                         TR130      <50/130                                                                               77/170                                                                               1.8/2.0                                                                             0.18 2.5/0.1                                                                             0.28 21.5 0.942                         Blends:                                                                        50 wt. % EHC                                                                   0.27 HLMI                                                                      0.936 g/cc                                                                     50 wt. % PE 280 MI                                                             0.970 g/cc                                                                     Banbury mixed                                                                             200/390                                                                               56/290                                                                               2.9/3.0                                                                             0.32 3.0/4.0                                                                             0.09 7.6  0.959                         38 mm Davis-                                                                              190/390                                                                               51/360                                                                               2.7/3.0                                                                             0.34  40/1.0                                                                             0.09 8.2  0.957                         Standard Single                                                                Screw Extruder                                                                 only                                                                           2FCM blended only                                                                         210/400                                                                               44/400                                                                               2.9/3.1                                                                             0.34 7.0/1.0                                                                             0.09 8.4  0.9597                        __________________________________________________________________________

The data in Table IV compare the properties for the preferred ethylene polymer blend in accordance with this invention, which is an approximately 50/50 wt. % blend of the low molecular weight and the high molecular weight ethylene polymer with the film properties achieved with two commercial resins and three experimental blends. The ethylene polymer blend resulted in an improved impact, tear and puncture resistance compared to the commercial film resins even though measurable physical properties were similar. The fish eye count was increased when the mixing was scaled up to the 38 mm Davis-Standard single screw extruder but the char was reduced by the continuous mixing method. It is also to be noted that the blend obtained in the 2FCM apparatus had reduced fish eye count compared to the single screw extruder blend.

EXAMPLE II

In this example the influence of the MI (melt index) of the low molecular weight ethylene polymer component in the blend was tested. The components used and the results obtained as well as the mixing techniques employed are shown in the following Table V.

                                      TABLE V                                      __________________________________________________________________________     SLOT FILM STUDY OF EFFECT OF MELT INDEX                                        OF LOW MOLECULAR WEIGHT COMPONENT                                              __________________________________________________________________________     EHC 1.3 HLMI, 0.940 g/cc                                                                     55   55   55   55   55                                           PE 158 MI, 0.966 g/cc                                                                        45                                                               PE 67 MI, 0.968 g/cc                                                                              45                                                          PE 47 MI, 0.971 g/cc    45   45   45                                           Mixing:                                                                        Henschel Powder Mix                                                                          yes  yes  yes  yes  yes                                          Force Feeder  yes  yes  yes  yes  yes                                          Screw Type    2.2/1SS.sup.(1)                                                                     2.2/1SS                                                                             2.2/1SS                                                                             2.2/1SS                                                                             DDD.sup.(2)                                  Static Mixer.sup.(3)                                                                         yes  yes  yes  yes  yes                                          Temp. °C.                                                                             220  220  220  160  220                                          Results:                                                                       Fish Eye Count/ft.sup.2                                                                      564  840  192  312  132                                          Melt Index, g/10 min                                                                         0.23 0.22 0.23 0.23 0.19                                         HLMI, g/10 min                                                                               16.4 12.5 12.7 12.7 11.5                                         Density, g/cc 0.9577                                                                              0.9568                                                                              0.9559                                                                              0.9559                                                                              0.9550                                       RDI           1.58 1.52 1.44 1.49 1.53                                         ESCR, hours   >1000                                                                               >1000                                                                               >1000                                                                               >1000                                                                               >1000                                        __________________________________________________________________________      .sup.(1) 2.2/1SS is a single stage screw having a compression ratio of         2.2.                                                                           .sup.(2) DDD is a devolatilizing screw with a double Dulmage mixing            section.                                                                       .sup.(3) Static mixer section (Kenics Co.) located between extruder and        pelletizing die.                                                         

The results in Table V indicate that while the fish eye count was reduced by using a mixing screw, decreasing the melt temperature from 220° C. to 160° C. did not reduce the fish eye count. This is a significant and advantageous result because it shows that an increase in temperature does not increase the fish eye count. The data of this table also indicate that the melt index or molecular weight of the low molecular weight component was not a controlling factor in the fish eye count.

EXAMPLE III

The previous example was essentially repeated with a group of different resins. The ingredients and quantities used as well as the data obtained are shown in Table VI.

                                      TABLE VI                                     __________________________________________________________________________     EHC 0.22 HLMI, 0.936 g/cc                                                                    45    45   45    50   50   50    55   55   55                    PE 158 MI, 0.966 g/cc                                                                        55               50              45                              PE 67 MI, 0.968 g/cc                                                                               55              50              45                         PE 47 MI, 0.971 g/cc     55              50              45                    Mixing:                                                                        Henschel Powder Mix                                                                          yes   yes  yes   yes  yes  yes   yes  yes  yes                   Force Feeder  yes   yes  yes   yes  yes  yes   yes  yes  yes                   Screw Type    DDD.sup.(2)                                                                          DDD.sup.(2)                                                                         DDD.sup.(2)                                                                          DDD.sup.(2)                                                                         DDD.sup.(2)                                                                         DDD.sup.(2)                                                                          DDD.sup.(2)                                                                         DDD.sup.(2)                                                                         DDD.sup.(2)           Static Mixer.sup.(3)                                                                         yes   yes  yes   yes  yes  yes   yes  yes  yes                   Temp. °C.                                                                             180   180  180   180  180  180   180  200  200                   Results:                                                                       Fish Eye Count/ft.sup.2                                                                      1300  1600 2300  620  250  1000  280  60   230                   Melt Index, g/10 min                                                                         0.10  0.08 0.09  0.06 0.06 0.06  0.05 0.04 0.05                  HLMI, g/10 min                                                                               10.2  7.5  8.0   5.9  5.0  5.0   3.7  3.1  3.5                   Density, g/cc 0.9611                                                                               0.9591                                                                              0.9581                                                                               0.9589                                                                              0.9591                                                                              0.9570                                                                               0.9581                                                                              0.9553                                                                              0.9562                RDI           1.75  1.76 1.73  1.57 1.68 1.67  1.54 1.55 1.64                  ESCR, hours   >1000 > 1000                                                                              >1000 >1000                                                                               >1000                                                                               >1000 >1000                                                                               >1000                                                                               >1000                 __________________________________________________________________________      .sup.(2)(3) See footnotes of Table V.                                    

The data in Table VI demonstrate a strong dependency of the fish eye count upon the quantity of high molecular weight polymer utilized. The higher the quantity of the high molecular weight component in the resin the lower the fish eye count became. Fish eye count and blend melt index are again shown to be independent of the melt index of the low molecular weight component.

EXAMPLE IV

The previous example was again essentially repeated with the components as shown in Table VII. In this experiment the high molecular weight polyethylene was not an ethylene 1-hexene copolymer but rather an ethylene homopolymer.

                                      TABLE VII                                    __________________________________________________________________________     Ethylene Polymers:                                                             PE 0.10 HLMI, 0.940 g/cc                                                                    45   45   45   50   50   50   55   55   55                        PE 158 MI, 0.966 g/cc                                                                       55             50             45                                  PE 67 MI, 0.968 g/cc                                                                             55             50             45                             PE 47 MI, 0.971 g/cc   55             50             45                        Mixing:                                                                        Henschel Powder Mix                                                                         yes  yes  yes  yes  yes  yes  yes  yes  yes                       Force Feeder yes  yes  yes  yes  yes  yes  yes  yes  yes                       Screw Type   DDD.sup.(2)                                                                         DDD.sup.(2)                                                                         DDD.sup.(2)                                                                         DDD.sup.(2)                                                                         DDD.sup.(2)                                                                         DDD.sup.(2)                                                                         DDD.sup.(2)                                                                         DDD.sup.(2)                                                                         DDD.sup.(2)               Static Mixer.sup.(3)                                                                        yes  yes  yes  yes  yes  yes  yes  yes  yes                       Temp. °C.                                                                            230  230  230  230  230  230  230  240  240                       Results:                                                                       Fish Eye Count/ft.sup.2                                                                     2900 2000 3300 400  400  1400 100  190  250                       Melt Index, g/10 min                                                                        0.02 0.02 0.03 0.013                                                                               0.01 0.014                                                                               0.006                                                                               0.007                                                                               0.007                     HLMI, g/10 min                                                                              6.8  4.4  5.8  4.3  3.5  3.4  2.3  1.90 1.79                      Density, g/cc                                                                               0.9641                                                                              0.9635                                                                              0.9615                                                                              0.9634                                                                              0.9612                                                                              0.9609                                                                              0.9607                                                                              0.9605                                                                              0.9597                    RDI          1.92 1.91 1.97 1.96 1.92 1.93 1.84 1.82 1.86                      ESCR, hours  155  381  109  305  275  240  373  640  524                       __________________________________________________________________________      .sup.(2)(3) See footnotes of Table V.                                    

The data in Table VII show the same trend as observed in the earlier examples, namely that the fish eye count goes down with increasing quantity of high molecular weight ethylene polymer. Additionally, however, the above data show that the environmental stress crack resistance is substantially reduced when an ethylene homopolymer is used as compared to the previous examples where an ethylene 1-hexene copolymer was used as the high molecular weight component.

EXAMPLE V

In this example various blends of 60 weight percent of high molecular weight resin and 40 weight percent of low molecular weight resin were tested. The polymers used and the results obtained as well as the mixing procedure are shown in Table VIII.

                                      TABLE VIII                                   __________________________________________________________________________     Ethylene Polymer:                                                              PE 47 MI, 0.9706 g/cc                                                                          40    40                                                       EHC 49 MI, 0.9543 g/cc     40                                                  EHC 45 MI, 0.9489 g/cc           40                                            PE 1.5 HLMI, 0.9522 g/cc   60    60                                            EHC 1.3 HLMI, 0.9447 g/cc                                                                            60                                                       EHC 1.3 HLMI, 0.9404 g/cc                                                                      60                                                             Mixing:                                                                        Henschel Mix    yes   yes  yes   yes                                           Banbury Mix     yes   yes  yes   yes                                           Pelletize       yes   yes  yes   yes                                           Properties:                                                                    Melt Index, g/10 min.                                                                          0.20  0.19 0.23  0.25                                          HLMI, g/10 min. 10.2  9.6  10.9  12.2                                          Density, g/cc   0.9560                                                                               0.9577                                                                              0.9550                                                                               0.9553                                        Flexural Modulus, MPa                                                                          1370  1520 1400  1260                                          ESCR, hours     >1000 >1000                                                                               87    87                                            Film Test Results:                                                             Dart Impact, g, 26"/13"                                                                        <50/100                                                                              <50/100                                                                             (surged)                                                                             <50/70                                        Elmendorf Tear, g, MD/TD.sup.(1)                                                               60/150                                                                               50/130                                                                              No good                                                                              50/110                                        Patterson Puncture, Kg, MD/TD                                                                  2.4/2.6                                                                              2.2/2.7                                                                             film  1.7/2.3                                       Fish Eye Count, Hard Gel/Char                                                                  3/8   5/10 2/16  3/22                                          __________________________________________________________________________      .sup.(1) MD is machine direction; TD is transverse direction.            

The data in Table VIII again show a strong dependency of the environmental stress crack resistance upon the structure of the high molecular weight ethylene polymer utilized. Whereas the blend having an ethylene 1-hexene copolymer as the high molecular weight component shows very good environmental stress crack resistance, the blend containing an ethylene homopolymer as the high molecular weight ethylene polymer component in the blend shows a substantially reduced environmental stress crack resistance even though the blend densities and melt flows are very close.

EXAMPLE VI

In this example a blend of a low molecular weight ethylene homopolymer and a high molecular weight ethylene 1-hexene copolymer as indicated and specified in the following table were used with varying mixing techniques. The results are shown in Table IX.

                  TABLE IX                                                         ______________________________________                                         Ethylene Polymer:                                                              PE 47 MI, 0.9706 g/cc                                                                           45      45      45    45                                      EHC 1.3 HLMI, 0.9404 g/cc                                                                       55      55      55    55                                      Zinc Stearate, Part by Weight                                                                   0.05    0       0     0                                       Ethylene-bis-stearamide,                                                                        0       0.05    0.05  0                                       Part by Weight                                                                 Mixing:                                                                        Henschel Mix     yes     yes     yes   yes                                     Banbury Mix      yes     no      yes   no                                      Pelletize        yes     yes     yes   no                                      Properties:                                                                    Melt Index, g/10 min.                                                                           0.47    0.42    0.25  fluff                                   HLMI, g/10 min.  28.7    27.1    14.0  feed                                    Density, g/cc    0.958   0.958   0.956 no                                      Flexural Modulus, MPa                                                                           1490    1500    1450  pellets                                 ESCR, hours      >1000   >1000   >1000                                         Film Test Results:                                                             Dart Impact, g, 26"/13"                                                                         60/130  70/170  80/190                                                                               90/200                                  Elmendorf Tear, g, MD/TD                                                                        40/90   40/120  60/150                                                                               30/150                                  Patterson Puncture, Kg,                                                                         1.7/2.2 1.6/2.1 2.4/2.8                                                                              1.7/2.5                                 MD/TD                                                                          Fish Eye Count, Hard Gel/                                                                       5/7     750/0   11/11 6/0                                     Char                                                                           ______________________________________                                    

The right column of Table IX is particularly interesting since this run demonstrates the possibility for direct feeding of the polymer fluff mixture to a film extruder while obtaining excellent film test results. Thus no extruder or Banbury premixing was required in this run. A force feeder was used during the film extrusion to eliminate surging. The environmental stress crack resistance values for the pellet blends used in this example also were very good.

EXAMPLE VII

In this example the effect of the high molecular weight copolymer on the Dart impact strength was tested. The ethylene polymer components used and the results obtained are shown in Table X.

                                      TABLE X                                      __________________________________________________________________________     Ethylene Polymer:                                                              PE 47 MI, 0.9706 g/cc                                                                          55            50                                               EHC 49 MI, 0.9543 g/cc                                                                             55            50                                           EHC 45 MI, 0.9489 g/cc   55           50                                       PE 1.5 HLMI, 0.9522 g/cc                                                                           45   45       50  50                                       EHC 1.3 HLMI, 0.9447 g/cc                                                                      45            50                                               Mixing:                                                                        Henschel Mix    yes yes  yes  yes yes yes                                      Pelletize       yes yes  yes  yes yes yes                                      Kinetic Mixer   yes yes  yes  yes yes yes                                      Banbury Mix     no  no   no   no  no  no                                       Propeties:                                                                     Melt Index, g/10 min                                                                           0.45                                                                               0.53 0.54 0.32                                                                               0.34                                                                               0.38                                     HLMI, g/10 min  29.1                                                                               33.8 33.9 20.2                                                                               20.2                                                                               22.2                                     Density, g/cc   0.9596                                                                             0.9558                                                                              0.9526                                                                              0.9598                                                                             0.9552                                                                             0.9525                                   Flexural Modulus, MPa                                                                          1680                                                                               1390 1280 1520                                                                               1340                                                                               1270                                     ESCR, hours     382 24   15   462 30  30                                       Film Test Results:                                                             Dart Impact, g, 26"/13"                                                                        79/160                                                                             <50/120                                                                             <50/120                                                                             82/190                                                                             65/160                                                                             <50/130                                  Elmendorf Tear, g, MD/TD                                                                       30/110                                                                             30/120                                                                              30/100                                                                              40/110                                                                             30/190                                                                             40/210                                   Patterson Puncture, Kg, MD/TD                                                                  1.7/1.8                                                                            1.6/1.7                                                                             1.6/1.8                                                                             1.9/2.2                                                                            1.7/2.0                                                                            1.7/1.8                                  Fish Eye Count, Hard Gel/Char                                                                  950/0                                                                              780/0                                                                               660/0                                                                               7.5/0.8                                                                            7.6/0.2                                                                            15/0.2                                   __________________________________________________________________________

The data in Table X demonstrate that the dart impact strength is improved if the high molecular weight portion is a copolymer rather than the low molecular weight portion of the ethylene polymer composition. A further surprising result is shown in the above table. Even though in the first and the fourth run the density of the resin mixture was higher than in the second and the fifth run, respectively, the dart impact strength was superior. This is very unusual and surprising because density has a primary influence on dart impact. Superior dart impact is generally associated with lower density. This blend composition thus shows a clear and unexpected advantage over conventional polyethylene film resins in that resin blends with higher density show better dart impact strength than those with comparatively lower density when the preferred copolymer distribution is used. Again a substantial dependency of the environmental stress crack resistance upon the structure of the high molecular weight ethylene polymer component is apparent from the above data. These data confirm the previous finding that the environmental stress crack resistance is best when the high molecular weight ethylene polymer component is an ethylene/1-hexene copolymer. The table above also shows the reduced Fish Eye Count for the 50/50 weight percent blend.

The above runs also demonstrate the feasibility of the elimination of a Banbury mixing step.

EXAMPLE VIII

This example was carried out to demonstrate that a blend of ethylene polymers with a density above 0.960 could have a high Dart impact strength when made into blown film. The components used and the results obtained are again shown in Table XI.

                                      TABLE XI                                     __________________________________________________________________________     Ethylene Polymer:                                                              PE 158 MI, 0.9664 g/cc                                                                         60   60   60    60                                             EHC 0.22 HLMI, 0.9359 g/cc                                                                     40   40                                                        PE 0.10 HLMI, 0.9401 g/cc 40    40                                             Mixing:                                                                        Henschel Mix    yes  yes  yes   yes                                            Banbury Mix     no   yes  no    yes                                            Pelletized      yes  yes  yes   yes                                            Static Mixer    no   no   no    no                                             Properties:                                                                    Melt Index, g/10 min.                                                                          0.17 0.17 0.08  0.08                                           HLMI, g/10 min. 17.6 15.6 12.6  8.5                                            Density, g/cc   0.9623                                                                              0.9626                                                                              0.9643                                                                               0.9639                                         Flexural Modulus, MPa                                                                          1680 1650 1800  1620                                           ESCR, hours     >1000                                                                               >1000                                                                               126   282                                            Film Test Results:                                                             Dart Impact, g, 26"/13"                                                                        <50/120                                                                             150/250                                                                             <50/<50                                                                              180/340                                        Elmendorf Tear, g, MD/TD                                                                       30/180                                                                              50/180                                                                              40/120                                                                               40/390                                         Patterson Puncture, Kg, MD/TD                                                                  1.7/2.0                                                                             2.1/2.7                                                                             1.6/1.7                                                                              2.4/2.8                                        __________________________________________________________________________

In the blends shown in Table XI very low HLMI polymers, i.e. ethylene polymers with high molecular weight, were used and they required more intensive mixing such as Banbury mixing in order to obtain good film properties. The data show, however, that the film properties are very good despite the fact that the blend density is above 0.96. ESCR again points out the significance of even small amounts of short branching in high molecular weight component.

EXAMPLE IX

Ethylene polymer resin blends were fabricated from ethylene polymers and using mixing techniques as indicated in the following table. The properties of the polymer blend as well as the film test results are also shown in Table XII. In the series employing extruder mixing, each composition was prepared with the indicated screw type.

                                      TABLE XII                                    __________________________________________________________________________     Ethylene Polymer:                                                              PE 158 MI, 0.9664 g/cc                                                                         60    60    60    60    60                                     EHC 0.22 HLMI, 0.9359 g/cc                                                                     40    40    40    40    40                                     Mixing:                                                                        Henschel Mix    yes   yes   yes   yes   yes                                    Banbury Mix     no    no    no    no    no                                     Davis-Standard                                                                 2.2/1SS Screw.sup.(1)                                                                          yes   no    no    no    no                                     3.0/1SS Screw.sup.(2)                                                                          no    yes   no    no    no                                     TSD Screw.sup.(3)                                                                              no    no    yes   no    no                                     SSM Screw.sup.(4)                                                                              no    no    no    yes   no                                     DDD Screw.sup.(5)                                                                              no    no    no    no    yes                                    Static Mixer    yes   yes   yes   yes   yes                                    Properties:                                                                    Melt Index g/10 min                                                                            0.14  0.16  0.15  0.15  0.10                                   HLMI, g/10 min  15.7  20.4  18.6  19.8  19.6                                   Density, g/cc   0.9633                                                                               0.9628                                                                               0.9627                                                                               0.9624                                                                               0.9622                                 Flexural Modulus, MPa                                                                          1670  1670  1640  1690  1670                                   ESCR, hours     >1000 >1000 >1000 >1000 >1000                                  Film Test Results:                                                             Dart Impact, g, 26"/13"                                                                        <50/<50                                                                              <50/<50                                                                              <50/<50                                                                              <50/<50                                                                              <50/<50                                Elmendorf Tear, g, MD/TD                                                                       27/270                                                                               28/190                                                                               28/160                                                                               30/160                                                                               27/180                                 Patterson Puncture, Kg, MD/TD                                                                  1.6/1.9                                                                              1.6/1.8                                                                              1.5/1.7                                                                              1.6/1.7                                                                              1.6/1.6                                __________________________________________________________________________      .sup.(1) Same as footnote 1, Table V.                                          .sup.(2) 3.0/1SS is a single stage screw having a compression ratio of         3.0.                                                                           .sup.(3) TSD is a twostage devolatilizing screw.                               .sup.(4) SSM is a single screw with a Maddox mixing section.                   .sup.(5) Same as footnote 2, Table V.                                    

The poor results in Table XII, as indicated by dart impact data, for these blends which all contain less than 50% high molecular weight component, emphasizes the preference of a composition having at least 50% high molecular weight component. Banbury mixing is generally required for good results only if the composition falls below 50% in high molecular weight component.

EXAMPLE X

In this example resin blends were made using again ethylene polymers in quantities as specified in Table XIII. This table also shows the properties of the blend and the film test results.

                                      TABLE XIII                                   __________________________________________________________________________     Ethylene Polymer:                                                              Hostalen GM, 9255                                                                              100                                                            TR130                100                                                       PE 158 MI, 0.9664 g/cc    60.sup.(1)                                           EHC 0.10 HLMI, 0.9401 g/cc                                                                               40                                                   PE 275 MI, 0.9696 g/cc          50   50   50                                   EHC 0.27 HLMI, 0.9355 g/cc      50   50   50                                   Irganox 1010 (Part by Weight)                                                                            0.1   0.1  0.1  0.1                                  Mixing:                                                                        Commercial Resin Control                                                                       yes  yes  no    no   no   no                                   Henschel Mix    no   no   yes   yes  yes  yes                                  Double Pass-Double Letdown.sup.(2)                                                             no   no   yes   no   no   no                                   DDD Screw       no   no   yes   no   no   no                                   Banbury Mix     no   no   no    yes  no   no                                   Pelletize, Davis-Standard:                                                                     no   no   yes   yes  yes  yes                                  2.2 1/SS Screw  no   no   no    yes  yes  yes                                  Static Mixer    no   no   yes   yes  yes  yes                                  Properties:                                                                    Melt Index, g/10 min                                                                           0.05 0.28 0.07  0.09 0.09 0.09                                 HLMI, g/10 min  8.4  21.5 14.9  7.6  8.2  7.2                                  Density, g/cc   0.9573                                                                              0.9417                                                                              0.9653                                                                               0.9592                                                                              0.9566                                                                              0.9575                               Flexural Modulus, MPa                                                                          1570 918  1820  1540 1580 1490                                 ESCR, hours     >1000                                                                               >1000                                                                               132   >1000                                                                               >1000                                                                               >1000                                RDI             2.14 1.72 1.81  1.48 1.55 1.59                                 Film Test Results:                                                             Dart Impact, g, 26"/13"                                                                        100/240                                                                             <50/130                                                                             <50/<50                                                                              200/390                                                                             190/390                                                                             180/370                              Elmendorf Tear, g, MD/TD                                                                       20/290                                                                              77/170                                                                              26/150                                                                               56/290                                                                              51/360                                                                              45/290                               Patterson Puncture, Kg, MD/TD                                                                  1.7/2.7                                                                             1.8/1.95                                                                            1.5/1.6                                                                              2.9/3.0                                                                             2.7/3.0                                                                             2.7/2.9                              Spencer Impact, Joules                                                                         0.24 0.18 0.09  0.32 0.34 0.34                                 Fish Eye Count, Gel/Char                                                                       3/0.1                                                                               2.5/0.1                                                                             40/1.0                                                                               3.0/4.0                                                                             40/1.0                                                                              68/0                                 __________________________________________________________________________      .sup.(1) This recipe gave poor film properties with 2FCM mix only.             .sup.(2) The low molecular weight resin was blended with about 50 volume       of the high molecular weight resin, then extruded and pelletized. The          pellets were blended with the remainder of the high molecular weight           resin, then extruded and pelletized again.                               

The results of this table in this example again seem to indicate that for obtaining a satisfactory blend when using 60 parts by weight of the low molecular weight ethylene polymer and 40 parts by weight of a high molecular weight resin, a Banbury premixing or another intensive premixing is required for the use of the resin in film making processes.

The last three runs show that the ethylene polymer mixture of this invention results in superior resins for film production. The performance exceeds that expected for polyethylene of this density and melt flow. The last two runs of this example are duplicate runs to test the reproducibility of the results which is, as can be seen, excellent.

EXAMPLE XI A. Polymers

The polymers used in this example were all prepared in a pilot plant loop reactor using the Ti/Mg catalyst as described in European Patent Application No. 81 106 259.5. Relatively narrow molecular weight distribution polymers of widely different molecular weights were produced with this catalyst by changing the hydrogen concentration in the reactor. These polymers are recovered as fine powders or fluff which are easily blended by various techniques such as a Henschel mixer. A description of the different base resins used in this program is presented in Table XIV. All copolymers used 1-hexene as the comonomer.

                  TABLE XIV                                                        ______________________________________                                         DESCRIPTION OF BLEND COMPONENTS                                                            Density                                                                               HLMI                                                                    (g/cc) (g/10 min.)                                                 ______________________________________                                         A. High Molecular Weight Polymers (HMWP)                                       HMWP                                                                            1H           0.9360   0.24                                                     2H           0.9355   0.30                                                     3H           0.9380   0.37                                                    4H*           0.9490   1.41                                                    5H*           0.9500   1.56                                                    6H*           0.9480   0.89                                                     7H           0.9445   1.40                                                     8H           0.9419   2.04                                                     9H           0.9388   1.80                                                    10H           0.9393   1.48                                                    11H           0.9377   1.71                                                    12H           0.9331   1.41                                                    13H           0.9312   1.45                                                    B. Low Molecular Weight Polymers (LMWP)                                        LMWP                                                                           20L*           0.9675  67                                                      21L*           0.9696  275                                                     22L*           0.9700  146                                                     23L*           0.9700  212                                                     24L*           0.9690  108                                                     25L*           0.9700  150                                                     26L            0.9600  98                                                      27L            0.9550  106                                                     ______________________________________                                          *indicates homopolymers. All others are 1hexene copolymers.              

B. Mixing and Compounding

For stabilization during processing 0.05 weight % BHT, 0.03 weight % DLTDP and 0.04 weight % calcium stearate were added to the fluff in the Henschel mixer.

Mixing and pelletizing involved the following steps: 1. Blends of high and low molecular weight fluff were weighed to give the desired ratio. 2. The powder blends were mixed for three minutes at high speed in the Henschel mixer with stabilizers. 3. The powder blends were force fed to the 1.5 inch Davis-Standard extruder with nitrogen protection. The temperature zones on the extruder were set at 221 C. Screw speed was 90 rpm. Extrusion rate was in the range of 30 to 40 pounds per hour. The screw had a 3:1 compression ratio and a 24:1 length to diameter ratio. A 40/80/40 mesh screen pack was used. The six hole die had 1/8 inch holes. A Cumberland Six Chopper was used for pelletizing. Melt temperatures were in the 230° to 250° C. range.

C. Film Blowing

The blends were converted to blown film using a 1.5 inch Davis-Standard extruder with a four inch Sano die with a Sano tower and take-off equipment. The Sano die was a bottom fed spiral design with a 0.76 mm die gap. The die was designed for use with high density, high molecular weight polyethylene. The extruder was a 1.5 inch Davis-Standard with a 24:1 length to diameter ratio. The feed screw had a 2.2:1 compression ratio. A 20/20 mesh screen pack was used. Only one mil film was used for evaluation. The blow-up ratio was 4:1. The frost line height was 26 inches, and the melt temperature was in the range of 230 to 265 C. Take-off speed was 31 feet/minute.

D. Film Evaluation

The film was evaluated by measuring a variety of properties. The test methods used are as described above.

The results obtained with the various blends are shown in the following tables.

                                      TABLE XV                                     __________________________________________________________________________     SUMMARY OF BLEND PROPERTIES                                                    __________________________________________________________________________                  BLEND NO.                                                                      1   2   3    4   5   6   7   8    8A  8B  9   10                  __________________________________________________________________________     High MW Component:    3H                       3H                              HLMI, g/10 min.       1.45                     0.37                            Density, g/cc         0.9312                   0.9380                          Concentration, wt. %                                                                        50  52  54   56  58  60  62       50                              Low MW Component:     26L                      23L     27L 26L                 MI                    98                       212     106 98                  Density               0.9600                   0.9700  0.9550                                                                             0.9600              Concentration, wt. %                                                                        50  48  46   44  42  40  38  50   50      50  50                  Blend Properties                                                               MI, g/10 min.                                                                               0.36                                                                               0.32                                                                               0.28 0.23                                                                               0.20                                                                               0.22                                                                               0.11                                                                               0.10 0.09                                                                               0.11                                                                               0.07                                                                               0.07                HLMI, g/10 min.                                                                             23.7                                                                               20.7                                                                               16.8 13.6                                                                               12.2                                                                               12.0                                                                               8.2 9.4  9.1 10.0                                                                               6.7 7.0                 Density, g/cc                                                                               0.9475                                                                             0.9473                                                                             0.9466                                                                              0.9455                                                                             0.9444                                                                             0.9446                                                                             0.9438                                                                             0.9578                                                                              0.9579                                                                             0.9582                                                                             0.9490                                                                             0.9512              Flexural Modulus, MPa                                                                       1057                                                                               1083                                                                               1089 1023                                                                               1004                                                                               1017                                                                               879 1543 1550                                                                               1567                                                                               1103                                                                               1250                Tensile Yield, MPa                                                                          25.2                                                                               24.5                                                                               24.2 23.9                                                                               23.8                                                                               23.6                                                                               23.5                                                                                --   --  -- 24.8                                                                               25.6                Tensile Break, MPa                                                                          34.5                                                                               34.7                                                                               37.6 37.5                                                                               38.8                                                                               37.7                                                                               37.8                                                                                13   --  -- 38.0                                                                               37.6                Elongation, %                                                                               1070                                                                               1060                                                                               1320 1440                                                                               1700                                                                               1310                                                                               1630                                                                                --   --  -- 1420                                                                               1140                Hardness, Shore D                                                                           65  65  65   65  65  64  64   --   --  -- 64  63                  Bell ESCR, hrs                                                                              >1000                                                                              >1000                                                                              >1000                                                                               >1000                                                                              >1000                                                                              >1000                                                                              >1000                                                                               --   --  -- >1000                                                                              >1000               Viscosity, Poise × 10.sup.-5                                                          2.5 2.8 3.1  3.6 4.1 3.3 6.4  --   --  -- 10.0                                                                               9.8                 RDI          1.56                                                                               1.54                                                                               1.51 1.48                                                                               1.54                                                                               1.53                                                                               1.58                                                                                --   --  -- 1.75                                                                               1.72                Film Properties                                                                Dart Impact, g, 26"                                                                         110 140 140  140 150 150 120 210  190 190 230 230                 Spencer Impact, J                                                                           0.26                                                                               0.31                                                                               0.28 0.30                                                                               0.34                                                                               0.34                                                                               0.28                                                                               0.41 0.41                                                                               0.42                                                                               0.49                                                                               0.61                MD Tear, g   48  53  68   60  65  64  66  34   39  30  67  67                  TD Tear, g   160 205 210  245 250 280 225 300  320 410 290 330                 Fish Eyes, ft.sup.-2                                                                        39  22  16   14  12  5   5   30   50  400 660 1000                __________________________________________________________________________      .sup.(1) See Table XIV for characterization of blend components.               Notes:                                                                         Three separate blends were indentically prepared and converted into film.      The blend and film properties are similar except for blend 8B which            displays very high TD tear and abnormally high fish eyes. The reason for       the high fish eyes count is not known.                                         Dashes indicate no properties were determined.                                 Blends 9, 9A and 10, 10A are duplicates.                                 

    BLEND NO.                                                                                   9A  10A 11   12  12A 12B 12C 13   14  15  16  17                  __________________________________________________________________________     High MW Component:                                                                          1H                   5H      4H   6H      7H                      HLMI, g/10 min.                                                                             0.24                 1.56    1.41 0.89    1.40                    Density, g/cc                                                                               0.9360               0.9500  0.9490                                                                              0.9480  0.9445                  Concentration, wt. %                                                                        50                   62      62   56  59  59  55                  Low MW Component:                                                                           27L 26L 24L          24L     24L  25L 27L 22L 20L                 MI, g/10 min.                                                                               106 98  108          108     108  150 106 146 67                  Density, g/cc                                                                               0.9550                                                                             0.9600                                                                             0.9690       0.9690  0.9690                                                                              0.9700                                                                             0.9550                                                                             0.9700                                                                             0.9680              Concentration, wt. %                                                                        50  50  50           38      38   44  41  41  45                  Blend Properties                                                               MI, g/10 min.                                                                               0.06                                                                               0.06                                                                               0.06 0.14                                                                               0.13                                                                               0.13                                                                               0.12                                                                               0.20 0.10                                                                               0.17                                                                               0.18                                                                               0.12                HLMI, g/10 min.                                                                             5.1 5.4 5.0  10.0                                                                               9.4 9.6 8.8 8.9  7.7 10.7                                                                               10.6                                                                               9.5                 Density, g/cc                                                                               0.9492                                                                             0.9524                                                                             0.9578                                                                              0.9580                                                                             0.9600                                                                             0.9600                                                                             0.9598                                                                             0.9597                                                                              0.9609                                                                             0.9510                                                                             0.9570                                                                             0.9547              Flexural Modulus, MPa                                                                       1108                                                                               1250                                                                               1400 1667                                                                               1613                                                                               1610                                                                               1594                                                                               1570 1570                                                                               1274                                                                               1566                                                                               1551                Tensile Yield, MPa                                                                          24.5                                                                               25.9                                                                               27.8 29.2                                                                               29.0                                                                               28.8                                                                               29.0                                                                               29.3 28.0                                                                               26.8                                                                               29.8                                                                               30.1                Tensile Break, MPa                                                                          37.0                                                                               39.1                                                                               31.0 40.1                                                                               38.5                                                                               39.6                                                                               43.0                                                                               39.3 33.2                                                                               38.1                                                                               35.7                                                                               33.4                Elongation, %                                                                               1480                                                                               1300                                                                               820  1200                                                                               1100                                                                               1200                                                                               1400                                                                               1200 980 1300                                                                               1000                                                                               900                 Hardness, Shore D                                                                           63  65  66   68  68  68  67  65   67  65  67  67                  Bell ESCR, hrs                                                                              >1000                                                                              >1000                                                                              > 1000                                                                              147 147 154 101 147  173 424 >1000                                                                              >1000               Viscosity, Poise × 10.sup.-5                                                          9.7 10.0                                                                               9.6   --  --  --  -- 3.4  6.0 3.9 4.1 4.9                 RDI          1.75                                                                               1.71                                                                               1.71 1.56                                                                               1.56                                                                               1.57                                                                               1.59                                                                               1.44 1.63                                                                               1.51                                                                               1.48                                                                               1.53                Film Properties                                                                Dart Impact, g, 26"                                                                         210 200 240  110 110 96  84  45   130 100 85  110                 Spencer Impact, J                                                                           0.50                                                                               0.57                                                                               0.57 0.30                                                                               0.24                                                                               0.28                                                                               0.30                                                                               0.28 0.28                                                                               0.31                                                                               0.30                                                                               0.28                MD Tear, g   53  46  49   30  25  28  30  34   33  47  37  30                  TD Tear, g   290 340 220  170 130 110 110 250  130 200 210 200                 Fish Eyes, ft.sup.-2                                                                        750 1200                                                                               1100 3.5 1.0 0.5 1.5 10   10  9   9   9                   __________________________________________________________________________      Notes:                                                                         Four separate blends of identical composition were prepared and converted      into film.                                                                     Blends 9, 9A and 10, 10A are duplicates.                                 

    BLEND NO.                                                                                   18  19  20   21  22  23  24  25   26  27  28  29                  __________________________________________________________________________     High MW Component:                                                                              8H           9H          10H          11H                     HLMI, g/10 min.  2.04         1.80        1.48         0.71                    Density, g/cc    0.9419       0.9388      0.9393       0.9377                  Concentration, wt. %                                                                        62  63  62.5 58  61  63  60  59   59  60.7                                                                               61  60.6                Low MW Component:                                                                           27L 22L 20L  27L 22L 20L 27L 22L  20L 27L 22L 20L                 MI, g/10 min.                                                                               106 146 67   106 146 67  106 146  67  106 146 67                  Density, g/cc                                                                               0.9550                                                                             0.9700                                                                             0.9680                                                                              0.9550                                                                             0.9700                                                                             0.9680                                                                             0.9550                                                                             0.9700                                                                              0.9680                                                                             0.9550                                                                             0.9700                                                                             0.9680              Concentration, wt. %                                                                        38  37  37.5 42  39  37  40  41   41  39.3                                                                               39  39.4                Blend Properties                                                               MI, g/10 min.                                                                               0.21                                                                               0.21                                                                               0.15 0.26                                                                               0.25                                                                               0.17                                                                               0.20                                                                               0.20 0.20                                                                               0.28                                                                               0.30                                                                               0.25                HLMI, g/10 min.                                                                             10.6                                                                               10.6                                                                               8.4  14.0                                                                               14.0                                                                               8.7 11.0                                                                               11.0 10.0                                                                               13.0                                                                               15.0                                                                               12.0                Density, g/cc                                                                               0.9487                                                                             0.9547                                                                             0.9527                                                                              0.9482                                                                             0.9540                                                                             0.9528                                                                             0.9476                                                                             0.9546                                                                              0.9536                                                                             0.9471                                                                             0.9534                                                                             0.9524              Flexural Modulus, MPa                                                                       1189                                                                               1353                                                                               1374 1165                                                                               1432                                                                               1368                                                                               1138                                                                               1437 1400                                                                               1102                                                                               1373                                                                               1376                Tensile Yield, MPa                                                                          25.7                                                                               28.4                                                                               28.1 24.4                                                                               27.8                                                                               27.3                                                                               24.3                                                                               27.6 28.1                                                                               24.7                                                                               27.4                                                                               27.2                Tensile Break, MPa                                                                          36.9                                                                               38.1                                                                               39.4 37.3                                                                               38.9                                                                               40.9                                                                               37.7                                                                               38.6 43.1                                                                               37.7                                                                               38.1                                                                               39.9                Elongation, %                                                                               1200                                                                               1100                                                                               1100 1600                                                                               1100                                                                               1100                                                                               1500                                                                               1200 1500                                                                               1600                                                                               1100                                                                               1100                Hardness, Shore D                                                                           65  67  67   65  66  66  65  66   67  65  66  66                  Bell ESCR, hrs                                                                              >1000                                                                              >1000                                                                              >1000                                                                               >1000                                                                              >1000                                                                              >1000                                                                              >1000                                                                              >1000                                                                               >1000                                                                              >1000                                                                              >1000                                                                              >1000               Viscosity, Poise × 10.sup.-5                                                          3.6 3.7 4.5  3.2 3.2 4.2 4.0 4.2  4.1 3.0 2.9 3.3                 RDI          1.45                                                                               1.43                                                                               1.49 1.48                                                                               1.45                                                                               1.45                                                                               1.46                                                                               1.48 1.45                                                                               1.42                                                                               1.43                                                                               1.41                Film Properties                                                                Dart Impact, g, 26"                                                                         76  79  86   73  110 130 92  100  120 83  89  86                  Spencer Impact, J                                                                           0.26                                                                               0.30                                                                               0.28 0.23                                                                               0.35                                                                               0.32                                                                               0.27                                                                               0.28 0.31                                                                               0.27                                                                               0.27                                                                               0.28                MD Tear, g   41  36  31   39  44  51  49  36   43  45  40  46                  TD Tear, g   230 210 200  210 270 310 260 300  250 210 180 180                 Fish Eyes, ft.sup.-2                                                                        3   3   3    20  28  12  5   25   6   5   6   29                  __________________________________________________________________________                                            BLEND NO.                                                                      30  31  32  33  34  35                  __________________________________________________________________________                                High MW Component:                                                                             12H         13H                                                HLMI, g/10 min. 1.41        1.45                                               Density, g/cc   0.9331      0.9312                                             Concentration, wt. %                                                                       59.1                                                                               58.8                                                                               56.4                                                                               59.3                                                                               59  56.9                                           Low MW Component:                                                                          27L 22L 20L 27L 22L 20L                                            MI, g/10 min.                                                                              106 146 67  106 146 67                                             Density, g/cc                                                                              0.9550                                                                             0.9700                                                                             0.9675                                                                             0.9550                                                                             0.9700                                                                             0.9675                                         Concentration, wt. %                                                                       40.9                                                                               41.2                                                                               43.6                                                                               40.7                                                                               41  43.1                                           Blend Properties                                                               MI, g/10 min.                                                                              0.22                                                                               0.21                                                                               0.21                                                                               0.22                                                                               0.22                                                                               0.23                                           HLMI, g/10 min.                                                                            13.0                                                                               12.0                                                                               13.0                                                                               13.0                                                                               13.0                                                                               12.0                                           Density, g/cc                                                                              0.9490                                                                             0.9499                                                                             0.9500                                                                             0.9433                                                                             0.9489                                                                             0.9494                                         Flexural Modulus, MPa                                                                      1018                                                                               1268                                                                               1255                                                                               972 1236                                                                               1226                                           Tensile Yield, MPa                                                                         22.5                                                                               25.1                                                                               26.9                                                                               23.0                                                                               26.1                                                                               26.5                                           Tensile Break, MPa                                                                         37.0                                                                               38.7                                                                               38.3                                                                               36.4                                                                               38.4                                                                               39.7                                           Elongation, %                                                                              1800                                                                               1200                                                                               1100                                                                               1700                                                                               1400                                                                               1300                                           Hardness, Shore D                                                                          64  66  65  63  66  65                                             Bell ESCR, hrs                                                                             >1000                                                                              >1000                                                                              >1000                                                                              >1000                                                                              >1000                                                                              >1000                                          Viscosity, Poise × 10.sup.-5                                                         3.0 3.8 3.8 3.5 3.2 3.7                                            RDI         1.52                                                                               1.46                                                                               1.51                                                                               1.50                                                                               1.52                                                                               1.47                                           Film Properties                                                                Dart Impact, g, 26"                                                                        140 150 120 130 150 150                                            Spencer Impact, J                                                                          0.32                                                                               0.32                                                                               0.31                                                                               0.30                                                                               0.34                                                                               0.32                                           MD Tear, g  57  52  48  64  57  53                                             TD Tear, g  330 300 250 260 280 230                                            Fish Eyes, ft.sup.-2                                                                       30  7   13  11  32  24                  __________________________________________________________________________

Some commercially available film resins were converted into film as described. The properties found are shown in Table XVI together with the properties of some of the films/resins blends of this invention.

DISCUSSION OF RESULTS A. Effects of Ratio of Components

One of the most important facts discovered in this work relating to film resins was that, in order to get uniform, homogeneous blends from two widely different molecular weight polymers using continuous processing equipment, it is preferred that >50% by weight of the blend be of the high molecular weight component. This is not necessarily true if batch processing equipment, such as a Banbury, is used to homogenize the mixture.

The explanation for this phenomenon may be that at compositions of less than 50% high molecular weight polymer, the low molecular weight polymer becomes the continuous phase. Due to the extremely low viscosity of the low molecular weight polymer, it is very difficult to apply the necessary shear stresses to the high molecular weight particles to make them disperse uniformly. However, when the concentration of high molecular weight polymer exceeds 50%, it becomes the continuous phase and can easily transmit the shear stresses to the low molecular weight particles. In order to be safe and achieve the best dispersion, it is preferred that the film composition contains at least 52% high molecular weight polymer.

The effects of film blend composition is presented in Table XV, blends 1 through 7. The film fish eye count is a convenient method of measuring the homogeneity of the blend. Note that the fish eye count was at a high level of 39/ft² for the 50/50 blend, but decreased to 5/ft² for the 60/40 blend. Also, the film tear strength improves with increasing high molecular weight polymer content. The exact degree of dispersion for any particular blend will depend upon the capabilities of the equipment used. However, the relative effect of concentration would be expected to apply in any equipment.

                                      TABLE XVI                                    __________________________________________________________________________     COMPARISON OF COMMERCIAL FILM RESINS WITH INVENTION BLENDS                                  Commercial                                                                    Film Resins                                                                              Examples of Invention Blends                                         Hizex                                                                              Hostalen                                                                             Blend No.                                                                            Blend No.                                                                            Blend No.                                                                            Blend No.                                          7000F                                                                              GM9255F                                                                              8A    11    10A   10                                     __________________________________________________________________________     Melt Index, g/10 min.                                                                      0.03                                                                               0.06  0.09  0.06  0.06  0.07                                   HLMI, g/10 min.                                                                            10.1                                                                               9.7   9.1   5.0   5.4   7.0                                    Density, g/cc                                                                              0.9533                                                                             0.9578                                                                               0.9579                                                                               0.9578                                                                               0.9524                                                                               0.9512                                 Flexural Modulus, MPa                                                                      1327                                                                               1476  1550  1400  1250  1250                                   Tensile @ yield, MPa                                                                       28.6                                                                               27.0  N.A.  27.8  25.9  25.6                                   Tensile @ Break, MPa                                                                       16.7                                                                               39.2  N.A.  31.0  39.1  37.6                                   Elongation, %                                                                              90  1143  N.A.  820   1300  1140                                   Hardness, Shore D                                                                          68  66    N.A.  66    65    63                                     Bell ESCR, hrs                                                                             >1000                                                                              >1000 N.A.  >1000 >1000 >1000                                  Dart Impact, g, (26")                                                                      195 179   190   240   200   230                                    Spencer Impact, J                                                                          0.356                                                                              0.359 0.41  0.57  0.57  0.61                                   Elmendorf Tear, g                                                              MD          53  38    39    49    46    67                                     TD          128 100   320   220   340   330                                    Fish Eyes, ft.sup.-2                                                                       4   10    50    1100  1200  1000                                   __________________________________________________________________________

The results obtained for blends 8-11 indicate that blends exhibiting excellent impact properties, high tear strengths, high ESCR values and acceptable to high flexural modulus values are obtained with a 50/50 weight percent blend of high molecular weight and low molecular weight components. The high molecular weight component had a HLMI of about 0.2-0.4 with a density of about 0.935 g/cc while low molecular weight polymers having MI values ranging from about 100-210 and densities ranging from about 0.955-0.970 g/cc were employed. The data show that the high fisheye counts (660 to 1200) for blends 9-11 can be substantially reduced by approximately doubling the MI of the low molecular weight component, e.g. from about 100 to about 200.

In the series of blends 12-35 the high molecular weight component varied from 55-63 weight percent, the HLMI varied from about 0.9-2 and the density ranged from about 0.931-0.950 g/cc. The low molecular component varied from 45-37 weight percent, the MI varied from about 70-145 and the density ranged from about 0.955-0.970 g/cc. All of the blends exhibited a low fisheye count (0.5-29) showing the importance of having greater than 50 weight percent high molecular weight component to accomplish a homogeneous blend.

As the density of the high molecular weight component decreased from about 0.950 g/cc of blend 12 to about 0.931 g/cc of blend 35 the results show that a substantial increase in Dart impact, Elmendorf tear and ESCR values were obtained. That is, Dart impact increased from 45 to 150 g, the MD tear increased from 25 to 64 g, the TD tear increased from 110 to 330 g and ESCR increased from 101 to greater than 1000 hours. The MI, density and flexural modulus of the resulting blends depended upon the values of the high and low molecular weight components.

The data in Table XVI demonstrate at approximately equal blend MI and density values relative to Hizex and Hostalen commercial resins that the invention blends generally exhibit superior Elmendorf tear, Dart impact and Spencer impact values. However, the invention blends have unacceptably high fisheyes for film applications but may be suitable for other applications such as blow molded or injection molded containers and the like.

Based on the data presented, an invention blend, when optimized for film applications, is calculated to have acceptably low fisheyes and the physical properties given in Table XVII.

The calculated data given in Table XVII suggest that an optimized blend compared to commercial resins of similar melt index and density values will exhibit a superior balance of impact strength and tear strength.

The molecular weight distribution obtained with invention blends by gel permeation chromatography is demonstrated in FIGS. 8 and 9. They are clearly bimodal in character. FIG. 9 is based on a previously unreported 50/50 blend of high molecular weight polymer 2H and low molecular weight polymer 21 L.

Multiple regression analyses on the data obtained have been made; they show that the weight fraction of high molecular weight polymer has a negative effect upon the HLMI, MI and density of the blend. Increasing this variable has a positive effect upon both the MD and TD tear strength. Surprisingly, the dart and Spencer impact strengths were not significantly affected by the concentration of high molecular weight component over the range of compositions studied. The blends were composed of between 50 and 60% high molecular weight polymer. This relatively narrow range was desirable for two reasons. (1.) As discussed above, there is a practical or economical lower limit for the film resin blend of 50% high molecular weight component due to the homogenization problem. (2.) The melt index and high load melt index drop rapidly as the fraction of high molecular weight polymer increases. Thus, processability deteriorates at higher levels. This rather restricted range accounts for the fact that this variable does not show up as a statistically significant factor in the regression analysis of the dart and Spencer impact strength.

B. Effects of Molecular Weights of Components

The molecular weight (here described by HLMI and MI) of the high molecular weight component is the second most important factor in determining the properties of a film resin blend. FIGS. 1-7 illustrate the effects of this variable. Note, for example, that a HLMI of the high MW component below about 0.6 results in dart impact strength above 200 grams (FIG. 4). Also, the tear strength and Spencer impact strength are all functions of this variable. Thus, there is a definite advantage in connection with film resin applications in keeping the HLMI of the high molecular weight component as low as possible. Low HLMI values of the high molecular weight component make it difficult to maintain the melt index and HLMI of the blend at a sufficiently high level to achieve good processability while still adhering to the >50% rule discussed above.

The molecular weight of the low molecular weight component also enters into consideration but only to a minor extent. The melt index of the low molecular weight component does not appear as a significant variable in any of the film property regression analyses (see Table III). In fact, it is only important in determining the HLMI (but not the MI) of the blend. It appears that this component acts only as a lubricant or diluent to affect the HLMI of the blend. Thus, it is important to keep the MI of the low molecular weight material as high as possible in order to keep the HLMI of the blend sufficiently high to achieve good processability. Most preferably, the MI of the low molecular weight component is at least 200. The calculations used to prepare FIGS. 1-7 are all based on a blend melt index of 250 for the low molecular weight component.

C. Effects of Densities of Components

The third most important variable in determining the film properties of a blend is the density of the high molecular weight component. This varaible has a negative coefficient in each of the film property regression equations except the Spencer impact equation, where it was not significant. Thus, there is a definite advantage in keeping the density of the high molecular weight component as low as possible for maximum film properties. Of course, this must also be balanced against any specifications on density and stiffness.

On the other hand, the density of the low molecular weight component only shows up as significant in the regression equations for blend density and MD tear strength. Even in these cases it only has about 1/3 the effect of the density of the high molecular weight component. Thus, in order to achieve a high blend density and stiffness with high film strength properties it is best to use a high density low molecular weight component and a low density high molecular weight component. In other words, there is a definite advantage to placing the comonomer in the high molecular weight end of the molecular weight distribution of the blend. This is one of the advantages of using a blend approach to optimizing a polymer's molecular structure. There is no known way of controlling the distribution of comonomer with a single reactor product.

D. Comparison With Competitive Resins

Data for two leading commercial high molecular weight film resins, Hizex 7000F and Hostalen GM 9255F, are presented in Table XVI and compared with several of the inventions blend polymers. These films were all produced under identical conditions. Inspection of these results shows that the invention blends are generally superior to the commercial resins in all film properties. The greatest advantage for the blends appears in the very important TD tear strength where the blends of this invention surpass the commercial resins by a factor of at least 2.

The mathematical models of the blend resin properties of this invention may also be used to formulate a resin to match the HLMI, MI and density of a commercial polymer. Table XVII illustrates these results for a blend which exactly matches the melt index, HLMI and density of Hostalen GM 9255F.

                  TABLE XVII                                                       ______________________________________                                         COMPARISON OF COMMERCIAL FILM RESINS WITH                                      CALCULATED PROPERTIES OF                                                       OPTIMIZED INVENTION BLEND                                                                          Calculated Blend*                                                                          95%                                                      Competitive Resins    Confi-                                                   Hizex Hostalen  Calculated                                                                               dence                                                7000F GM9255F   Values    Limits                                     ______________________________________                                         Melt Index  0.03    0.06     0.06  0.02  0.10                                  HLMI        10.1    9.7      9.7   5.5   13.9                                  Density, g/cc                                                                              0.9533  0.9578   0.9577                                                                               0.9555                                                                               0.9600                                Dart Impact, g                                                                             195     179      200   190   210                                   Spencer Impact, J                                                                          0.356   0.359    0.46  0.43  0.49                                  Elmendorf Tear, g                                                              MD          53      38       41    35    47                                    TD          128     100      280   220   350                                   ______________________________________                                          *Blend Composition?                                                            High MW Component:                                                             HLMI = 0.35 g/10 min.                                                          Density = 0.940 g/cc                                                           Weight Fraction = 52%                                                          Low MW Component:                                                              Melt Index = 300 g/10 min.                                                     Density = 0.970 g/cc                                                           Weight Fraction = 48%                                                    

E. Comparison of Hostalen Film Resin With Invention Film Resin Blend

A commercially available film resin was compared with the blend of this invention with the following results:

                  TABLE XVIIA                                                      ______________________________________                                                   Invention Blend*                                                                            Hostalen GM 9255F                                       ______________________________________                                         HLMI, g/10 min.                                                                            7.4            9.7                                                 MI, g/10 min.                                                                              0.09           0.06                                                Density, g/cc                                                                              0.946          0.9578                                              Dart Impact, g, 26"                                                                        213            190                                                 Spencer Impact, J                                                                          0.55           0.41                                                Elmendorf Tear, g                                                              MD          37             38                                                  TD          394            100                                                 Fisheyes, ft.sup.-2                                                                        12             10                                                  Film Thickness, mils                                                                       1.0            1.0                                                 Blow Up Ratio                                                                              4:1            4:1                                                 ______________________________________                                          *Blend Composition                                                             High MW Component:                                                             HLMI = 0.36 g/10 min.                                                          Density = 0.9340 g/cc                                                          Weight Fraction = 52%                                                          Low MW Component:                                                              MI = 112 g/10 min.                                                             Density = 0.9571 g/cc ≠Weight Fraction = 48%                       

The results in Table XVIIA show the invention blend to be superior to the commercial resin in dart and Spencer impact values, equivalent in MD Elmendorf tear and about 4-fold better in TD Elmendorf tear. The fisheye content of each film is about the same. Note that film properties of this polymer are all significantly superior to those of the Hostalen resin. Thus, both the actual, observed blend data and the predictions from the models are in agreement with the conclusion that a superior film resin can be produced by this technique.

F. Environmental Stress Crack Resistance and Stiffness

Another important property of the blend resins of this invention is their outstanding environmental stress crack resistance. Several of the samples are compared with data from polymers of comparable melt index and density in Table XVIII produced with a commercially available chromium oxide supported on coprecipitated silica-titania (cogel) catalyst.

                  TABLE XVIII                                                      ______________________________________                                         COMPARISON OF ESCR DATA FOR BLENDS                                             WITH COMPARABLE COGEL RESINS                                                                             Flexural                                                      Melt Index                                                                             Density  Modulus  Bell ESCR                                            (g/10 min)                                                                             (g/cc)   (MPa)    (hrs)                                       ______________________________________                                                              0.9500                                                    Control    0.19      0.9503   1179   530                                       Control    0.12      0.9503   1172   400                                       Invention Blend                                                                           0.21      0.9500   1255   >1000                                                          0.9536                                                    Control    0.24      0.9536   1303   150                                       Control    0.22      0.9537   1317   115                                       Invention Blend                                                                           0.20      0.9536   1400   >1000                                                          0.9540                                                    Control    0.30      0.9543   1372   110                                       Control    0.20      0.9540   1296   130                                       Invention Blend                                                                           0.12      0.9547   1551   >1000                                                          0.9570                                                    Control    0.17      0.9573   1374   326*                                      Control    0.18      0.9568   1360   326*                                      Control    0.19      0.9572   1410   338*                                      Invention Blend                                                                           0.18      0.9570   1556   >1000                                     ______________________________________                                          *These three polymers were made from 1000° F. activation                temperature catalysts to give maximum ESCR.                              

Note that in all cases the cogel polymers have ESCR values of only a few hundred hours, while all of the blends have ESCR values of >1000 hours. In fact, not one single specimen failed during the 1000 hours for any of the blends in Table XVIII.

Significantly, the stiffness of these polymers is in every case greater than that of the comparable cogel polymers by approximately 100 MPa. Thus the resins of this invention have achieved the outstanding feat of both superior stiffness and ESCR.

Several of these polymer blends were evaluated in blow molded bottles, where it was noted that they were remarkably uniform and free of streaks. Their color and odor were also excellent. These resins were judged to be superior to typical polyethylene resins in this regard.

EXAMPLE XII

In this example, 42 blends were prepared from resins within the limits specified above and their physical properties and flow properties were determined. Results are listed in Table XV. Mathematical regression analysis of the results obtained was made to ascertain the significance of the independent variables on blend properties. The following significant dependencies were found:

    ______________________________________                                         (HLMI).sub.Blend =                                                                           55.67 - 108.33(W.sub.1) +                                                      11.61 (HLMI.sub.1) + 0.021 MI.sub.2                              (MI).sub.Blend =                                                                             0.8968 - 1.761(W.sub.1) + 0.231(HLMI.sub.1)                      (Density).sub.Blend =                                                                        -0.053 - 0.0393(W.sub.1) +                                                     0.644(D.sub.1) + 0.439(D.sub.2)                                  (Dart Impact).sub.Blend) =                                                                   2165 - 2063(D.sub.1) - 75.07(HLMI.sub.1)                         [Spencer(Joules)].sub.Blend =                                                                0.5107 - 0.1369(HLMI).sub.1                                      (Elmendorf, MD).sub.Blend =                                                                  2038 + 152.8(W.sub.1) - 1671(D.sub.1 -                                         9.74 (HLMI.sub.1) - 518(D.sub.2)                                 (Elmendorf, TD).sub.Blend =                                                                  5870 + 83.88(W.sub.1) - 6367(D.sub.1) -                                        106.7(HLMI.sub.1)                                                W.sub.1 =     Weight fraction of high MW component                             D.sub.1 =     Density of high MW component                                     HLMI.sub.1 =  HLMI of high MW component                                        D.sub.2 =     Density of low MW component                                      MI.sub.2 =    MI of low MW component                                           ______________________________________                                    

Conclusions reached from multiple regression analysis:

1. The HLMI and MI of the blend is primarily dependent on weight fractions and HLMI of the high molecular weight component.

2. Density of the blend is primarily dependent on the densities of each of the components.

3. Dart impact of the blend is primarily dependent on the density and HLMI of the high molecular weight component.

4. Spencer impact of the blend is primarily dependent on the HLMI of the high molecular weight component.

5. Elmendorf tear, MD, is dependent on weight fraction, density and HLMI of the high molecular weight component and the density of the low molecular weight component.

6. Elmendorf tear, TD, is dependent on the weight fractions, density and HLMI of the high molecular weight component.

Reasonable variations and modifications can be made in this invention without departing from the spirit and scope thereof. 

What is claimed is:
 1. Process to produce an ethylene polymer resin mixture having a density in the range of 0.940-0.965 g/cc comprising blending(a) 40 to 70 parts by weight of a high molecular weight, low density ethylene polymer having a high load melt index (HLMI) in the range of about 0.1 to about 1.5 g/10 minutes, a density from about 0.930 to 0.945 g/cc, a heterogeneity index of <10 and having essentially no other branching than short chain branching, and (b) 60 to 30 parts by weight of a low molecular weight, high density ethylene polymer having a melt index (MI) in the range of 45 to 300 g/10 minutes, a density above about 0.950, a heterogeneity index of <6 and being essentially linear.
 2. Process in accordance with claim 1 wherein both ethylene polymers blended have a narrow molecular weight distribution.
 3. Process in accordance with claim 1 wherein said high molecular weight ethylene polymer used is a polymer of ethylene and 0 to 30 weight percent mono-1-olefin having 3-10 carbon atoms and said low molecular weight ethylene polymer used is an ethylene homopolymer.
 4. Process in accordance with claim 1 wherein neither said high molecular weight ethylene polymer nor said low molecular weight ethylene polymer has any substantial long chain branching.
 5. Process in accordance with claim 3 wherein said high molecular weight ethylene copolymer has a HLMI in the range of 0.2-0.6, wherein the low molecular weight ethylene homopolymer has a melt index (MI) in the range of about 100-300, wherein the low molecular weight ethylene homopolymer is essentially linear and wherein the high molecular weight ethylene copolymer has essentially only short chain branching from the comonomer but essentially no long chain branching.
 6. Process in accordance with claim 1 wherein both ethylene polymers are blended as polymer fluff to obtain a polymer fluff blend as the product.
 7. Process in accordance with claim 1 wherein said high molecular weight ethylene polymer has a density in the range of about 0.930 to 0.945 g/cc and said low molecular weight ethylene polymer has a density in the range of about 0.950 to 0.975 g/cc.
 8. Ethylene polymer blend produced in accordance with the process of one of the claims 1-6 and
 7. 9. Ethylene polymer blend the polymer component of which consists essentially of(a) 40-70 parts by weight of a high molecular weight, low density ethylene polymer having a high load melt index (HLMI) in the range of about 0.1 to about 1.5 g/10 min, a density below about 0.945 g/cc, a heterogeneity index of <10 and having essentially no other branching than short chain branching, and (b) 60-30 parts by weight of a low molecular weight, high density ethylene polymer having a melt index (MI) in the range of 45-300 g/10 minutes, a density above about 0.950, a heterogeneity index of <6 and being essentially linear.
 10. Blend in accordance with claim 8 wherein both ethylene polymers blended have a narrow molecular weight distribution.
 11. Blend in accordance with claim 8 wherein said high molecular weight ethylene polymer is a copolymer of ethylene and 0 to 30 weight percent mono-1-olefin having 3-10 carbon atoms and said low molecular weight ethylene polymer is an ethylene homopolymer.
 12. Blend in accordance with claim 11 wherein said high molecular weight ethylene copolymer has a high load melt index (HLMI) in the range of 0.2-0.6, wherein the low molecular weight ethylene homopolymer has a melt index (MI) of about 100-300, wherein the low molecular weight ethylene homopolymer is essentially linear and wherein the high molecular weight ethylene copolymer is also essentially linear and has essentially only short chain branching from the comonomer.
 13. Ethylene polymer blend having a density in the range of 0.940-0.965, the polymer component of which consists essentially of(a) a 40-70 parts by weight of high molecular weight low density ethylene polymer randomly copolymerized from ethylene and 5 to 10 weight % of a mono-1-olefin of 4 to 8 carbon atoms having a high load melt index in the range of 0.1 to 1.5, a heterogeneity index <10 and having essentially no other branching than short chain branching and a density from about 0.930 to 0.945, and (b) 60-30 parts by weight of a low molecular weight high density ethylene homopolymer having a melt index in the range of 45 to 300 and a density above about 0.950, a heterogeneity index of <6 and being essentially linear.
 14. Ethylene polymer blend having a density in the range of about 0.930 to 0.945, the polymer component of which consists essentially of(a) 40-70 parts by weight of a high molecular weight, low density ethylene polymer having a high load melt index (HLMI) in the range of about 0.1 to about 1.5 g/10 min, having a density in the range of about 0.930 to 0.945 g/cc, a heterogeneity index <10 and having essentially no other branching than short chain branching, and having a content of copolymerized comonomer of 5 to 10 weight percent of at least one olefin having 4 to 10 carbon atoms per molecule, (b) 60-30 parts by weight of a low molecular weight high density ethylene polymer having a melt index (MI) in the range of 45-300 g/10 minutes, having a density of about 0.950 to 0.975 g/cc, a heterogeneity index of <6 and being essentially linear and having a content of copolymerized comonomer, if any, of less than about 2 weight percent of olefin having 4 to 10 carbon atoms per molecule. 